KR102326578B1 - PC slab with grid groove - Google Patents

Abstract

The present invention relates to a precast (PC) slab structure comprising: a PC slab; a groove formed on the surface of the PC slab and extending in the longitudinal direction to insert a reinforcing material; and a rib protruding to the surface of the PC slab due to the formation of the groove. The present invention relates to a construction method of the PC slab structure having a grid-type groove, which comprises: a reinforcement step of inserting the reinforcing material into the groove; and a pouring step of pouring a finishing material to cover the groove of the PC slab after the reinforcing material is inserted into the groove of the PC slab.

Description

PC slab with grid groove}

The present invention relates to a PC slab structure having a grid-type groove, and more particularly, structural continuity between members by forming grid-type grooves in which reinforcing materials such as reinforcing bars can be reinforced on the surface of a PC slab manufactured by a precast method. It relates to a PC slab structure having lattice grooves that can secure

Precast (PC) method uses formwork to manufacture reinforced concrete structures in factories, and PC slab refers to standardized reinforced concrete slabs manufactured in factories using formwork.

The precast method is largely divided into the full slab method and the half slab method. In general, the half slab method is widely used because it is easy to implement structural integration with neighboring members.

The half slab method is a precast method to manufacture a thin PC slab, and the thin PC slab is installed on a beam or wall. Then, after reinforcing reinforcing bars on the PC slab, pour over-reinforced concrete to realize structural integration with neighboring members. Half slab method is classified into flat plate type, hollow type, rib attachment type according to the cross-sectional shape. However, the conventional half slab method has the following problems.

First, the conventional half slab method has a problem in that it is difficult to keep the surface of the PC slab in a flat state during construction. In the half slab method, reinforcing bars are placed on the PC slab after the PC slab is erected, and irregularities protrude from the upper surface of the PC slab by the rebar, reinforcing bar, shear reinforcing bar, shear key, etc. necessary for reinforcing reinforcement.

It is difficult to maintain the PC slab surface in a flat state due to such irregularities. If the PC slab surface cannot be maintained in a flat state, safety accidents such as tripping may occur, and it is difficult to immediately utilize the PC slab as a movement path for heavy equipment while under construction.

In addition, as the upper reinforcing bars of the PC slab are reinforced at the construction site, the amount of overlaid concrete increases, and accordingly, there is a problem in that the increase in the thickness of the PC slab is increased.

As there is a restriction on the increase in the thickness of the PC slab, it is difficult to support heavy equipment through the PC slab during construction due to insufficient rigidity, and it is difficult to utilize the PC slab as a movement path for the heavy equipment. Although it is possible to reduce the amount of overlaid concrete by manufacturing the upper reinforcing bars of the PC slab at the factory, in this case, there is a problem in that it is difficult to secure structural integrity with neighboring members.

At the same time, when the upper reinforcing bars of the PC slab are reinforced at the construction site, it is difficult to improve the construction quality because the rebar spacing cannot be accurately maintained.

The present invention is to solve the above-mentioned problems, and more specifically, it is possible to secure structural continuity between members by forming a lattice-type groove in which reinforcement such as reinforcing bars can be reinforced on the surface of a PC slab manufactured by a precast method. It relates to a PC slab structure having a grid-like groove that can be

The PC slab structure having lattice grooves of the present invention for solving the above-mentioned problems is a slab structure manufactured by a precast method, including: a PC slab; a groove formed on the surface of the PC slab and extending in a longitudinal direction or a width direction to insert a reinforcing material; and a rib protruding from the surface of the PC slab due to the formation of the groove, wherein a plurality of the grooves are formed on the surface of the PC slab, the plurality of grooves are formed in a grid shape, and the grooves and the ribs are checkerboard structure, the upper surface of the rib is made of a flat surface, the side surface of the rib is surface-treated to have a surface roughness, the reinforcing material is made of reinforcing bars, and after the reinforcing material is inserted into the groove of the PC slab , a finishing material is poured so as to cover the groove of the PC slab, and the finishing material is characterized in that it is overlaid concrete.

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A plurality of the PC slabs of the PC slab structure having a lattice groove of the present invention for solving the above problems are provided, and the reinforcing material can be simultaneously inserted into the groove of one PC slab and the groove of the other PC slab. have.

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In order to solve the above-mentioned problems, any one or more structures among a plate-type structure, a hollow structure, and a rib-attached structure may be formed under the PC slab of the PC slab structure having a grid-type groove of the present invention.

The method for constructing a PC slab structure having a lattice groove according to the present invention for solving the above-mentioned problems includes: a PC slab, a groove formed on the surface of the PC slab and extending in the longitudinal or width direction to insert a reinforcing material; And , a rib protruding to the surface of the PC slab due to the formation of the groove; a method for constructing a PC slab structure in which a plurality of grooves are formed in a grid shape while a plurality of grooves are formed on the surface of the PC slab , a reinforcement step of inserting the reinforcing material into the groove; and, after the reinforcing material is inserted into the groove of the PC slab, a pouring step of pouring a finishing material to cover the groove of the PC slab, wherein a plurality of the grooves are formed on the surface of the PC slab, The groove is formed in a grid shape while the groove and the rib are formed in a checkerboard structure, the upper surface of the rib is made of a flat surface, the side surface of the rib is surface-treated to have a surface roughness, and the reinforcing material is made of reinforcing bars and the finishing material is characterized in that it is overlaid concrete.

A plurality of PC slabs are provided in the method for constructing a PC slab structure having a lattice groove according to the present invention for solving the above-mentioned problems, and in the reinforcement step, the reinforcing material is a groove of one PC slab and another PC. It can be simultaneously inserted into the groove of the slab.

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The present invention relates to a PC slab structure having a grid-type groove, and by forming grid-type grooves in which reinforcing materials such as reinforcing bars can be reinforced on the surface of a PC slab manufactured by a precast method, structural continuity between members is secured. There is an advantage in that it is easy to implement structural integration between the members.

In addition, the present invention has the advantage of improving the construction quality by accurately observing the spacing of reinforcement such as reinforcing bars through the lattice grooves formed on the surface of the PC slab, and the reinforcement such as reinforcing bars is not exposed to the upper part of the PC slab Accordingly, there is an advantage in that the surface of the PC slab can be kept flat during construction.

The present invention has the advantage of being able to immediately utilize the PC slab as a movement path for heavy equipment even under construction by keeping the surface of the PC slab flat during construction, and keeping the surface of the PC slab flat even under construction. It has the advantage of preventing safety accidents such as foot tripping.

At the same time, according to the present invention, the amount of overlaid concrete can be minimized to the level of the covering thickness by forming lattice-shaped grooves on the surface of the PC slab. It has the advantage of securing the rigidity of the PC slab for supporting heavy equipment in the state.

1 is a view showing a PC slab structure having a grid-type groove according to an embodiment of the present invention.
2 is a view showing the existing PC slab structure or the PC slab of the present invention, such as a flat-type structure, a hollow structure, a rib-attached structure, etc., in the lower part of the PC slab, while grooves and ribs are formed on the surface of the PC slab according to the embodiment of the present invention; It is a diagram showing that various types of structural types can be used to improve structural performance.
FIG. 3 is a view showing that reinforcing materials such as reinforcing bars are reinforced in grooves of a PC slab that are separated from each other while forming a continuous reinforcement according to an embodiment of the present invention.
Figure 4 is a view showing the pouring of the overlaid concrete after reinforcing reinforcing materials such as reinforcing bars in the groove of the PC slab according to an embodiment of the present invention.

This specification clarifies the scope of the present invention, explains the principles of the present invention, and discloses embodiments so that those of ordinary skill in the art to which the present invention pertains can practice the present invention. The disclosed embodiments may be implemented in various forms.

Expressions such as “comprises” or “may include” that may be used in various embodiments of the present invention indicate the existence of a corresponding disclosed function, operation, or component, and may include one or more additional functions, operations, or components, etc. are not limited. In addition, in various embodiments of the present invention, terms such as "comprise" or "have" are intended to designate that a feature, number, step, action, component, part, or combination thereof described in the specification is present, It should be understood that it does not preclude the possibility of addition or existence of one or more other features or numbers, steps, operations, components, parts, or combinations thereof.

When a component is referred to as being “connected to and coupled to” another component, the component may be directly connected or coupled to the other component, but between the component and the other component. It should be understood that there may be other new components in the . On the other hand, when an element is referred to as being "directly connected" or "directly coupled" to another element, it will be understood that no new element exists between the element and the other element. should be able to

The terms first, second, etc. used herein may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

The present invention relates to a PC slab structure having a grid-type groove, and structural continuity between members can be secured by forming grid-type grooves in which reinforcing materials such as reinforcing bars can be reinforced on the surface of a PC slab manufactured by a precast method. It relates to a PC slab structure having a lattice-like groove. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1 , a PC slab structure having a grid-type groove according to an embodiment of the present invention includes a PC slab 110 , a groove 120 , and a rib 130 . The PC slab structure having lattice grooves according to an embodiment of the present invention is a PC slab structure manufactured by a precast method. The precast method uses formwork to manufacture reinforced concrete structures in factories.

The PC slab 110 may be manufactured in a factory through a precast method, and the PC slab 110 may be a standardized reinforced concrete slab (PC slab) manufactured in a factory using a formwork. . The PC slab 110 may be manufactured in various standards and formats.

Referring to FIGS. 1 and 2 , the groove 120 is a groove formed on the surface of the PC slab 110 and extends in the longitudinal direction or the width direction to insert the reinforcing material. The groove 120 is open toward the outside, and the reinforcing material may be inserted into the groove 120 through the open point.

The shape in which the groove 120 extends in the longitudinal direction or the width direction means a shape in which the groove 120 extends while forming a straight line from one point to another. The groove 120 may be formed in various shapes if it extends in the longitudinal direction or the width direction.

A plurality of the grooves 120 may be formed on the surface of the PC slab 110 . The plurality of grooves 120 may be arranged in various arrangements according to the insertion position of the reinforcing material.

1 and 2 , the rib 130 is disposed on the side surface of the groove 120 and protrudes from the surface of the PC slab 110 . The rib 130 protrudes from the surface of the PC slab 110 , and as a plurality of the grooves 120 are formed on the surface of the PC slab 110 , the plurality of the grooves 120 are formed on the side surface of the groove 120 . Ribs 130 are formed. That is, the surface of the PC slab 110 may be formed with a groove that is dug while extending in the longitudinal direction or the width direction, and a protruding rib protruding from the side of the groove by the groove.

The reinforcing material inserted into the groove 120 according to an embodiment of the present invention may be a reinforcing bar 140 . As the reinforcing bar 140 is inserted into the groove 120 , the reinforcing bar can be reinforced in the PC slab 110 .

The reinforcing material is preferably made of the reinforcing bar 140, but is not limited thereto, and the reinforcing material may be formed of various reinforcing materials as long as it can reinforce the strength of the PC slab 110, of course. Hereinafter, it will be mainly described that the reinforcing material is the reinforcing bar 140 .

The plurality of grooves 120 according to an embodiment of the present invention are preferably formed in a lattice shape and formed on the surface of the PC slab 110 . When the grooves 120 extend in a lattice shape, it means that a plurality of the grooves 120 extending in the longitudinal direction are entangled while overlapping each other as shown in FIGS. 1 and 2 .

More specifically, the groove 120 and the rib 130 may form a checkerboard structure. The plurality of grooves 120 may be a line in a checkerboard shape, and the plurality of ribs 130 may have a rectangular shape and may be disposed between lines formed by the plurality of grooves 120 .

Here, the width and depth of the groove 120 may be changed according to the type of the reinforcing material inserted into the groove 120 . As described above, while the reinforcing bar 140 is inserted into the groove 120 , the reinforcing bar 140 may be reinforced in the PC slab 110 , and the type of the reinforcing bar 140 and the reinforcing bar 140 are The width and depth of the groove 120 may be changed according to the thickness of the applied coating, the required structural performance, and the like.

In addition, the groove 120 may have an appropriate width and depth so that the reinforcing bar 140 serves as a path for increasing the attachment strength and transmitting the load through interaction with the rib 130 . In addition, the spacing between the plurality of grooves 120 may be changed according to the spacing between the reinforcing bars 140 to be reinforced on the PC slab 110 .

The reinforcing bar 140 inserted into the groove 120 may be in contact with the side surface of the rib 130 , and in order to increase the attachment strength between the side surface of the rib 130 and the reinforcing bar 140 , the rib The side of 130 may be surface treated. Specifically, the side surface of the rib 130 may be surface-treated to improve surface roughness.

The rib 130 is suitable so that the reinforcing bar 140 inserted into the groove 120 interacts with the side surface of the rib 130, and the reinforcing bar 140 serves as a load transmission path. It can have shape, depth, strength, and surface roughness.

According to an embodiment of the present invention, the upper surface of the rib 130 may be formed of a flat surface. As described above, as the reinforcing bar 140 is inserted into the groove 120, the surface of the PC slab 110 may not have irregularities, and the surface of the PC slab 110 may be flat. there will be

As the surface of the PC slab 110 becomes flat, there is an advantage that the PC slab 110 can be used immediately as a movement path of heavy equipment even under construction, and the surface of the PC slab is maintained flat even under construction. It has the advantage of preventing safety accidents such as foot tripping.

In order to flatten the surface of the PC slab 110 , the upper surface of the rib 130 may be formed of a flat surface. That is, as the reinforcing bar 140 is inserted through the groove 120 , irregularities may not occur on the surface of the PC slab 110 even under construction, and the upper surface of the rib 130 is As a flat surface is formed, the surface of the PC slab 110 may be flat.

Any surface material or hardware for construction may be attached and assembled to the surface of the rib 130 . Various configurations for construction may be attached to and assembled on the surface of the rib 130 , and through this, the PC slab 110 may be utilized during construction.

According to an embodiment of the present invention, the reinforcing bar 140 inserted into the groove 120 may not be reinforced in the plurality of grooves 120 , and may be reinforced only in a portion of the plurality of grooves 120 . . The reinforcing bar 140 may be reinforced only at the end of the PC slab 110 . That is, the reinforcing bar 140 may be inserted only at a point where reinforcement is required among the plurality of grooves 120 .

Referring to FIG. 3 , a plurality of PC slabs 110 may be provided, and the reinforcing material may be simultaneously inserted into the groove of one PC slab and the groove of the other PC slab. The plurality of PC slabs 110 may be manufactured in a factory through a precast method, and may be members separated from each other.

When constructing a PC slab manufactured by the precast method, structural continuity between members that are separated from each other must be secured to prevent a decrease in strength from occurring. To this end, the reinforcing material may be simultaneously inserted into the groove of the PC slab and the groove of the other PC slab.

Referring to FIG. 3 , the reinforcing material made of the reinforcing bar 140 may be reinforced while being simultaneously inserted into the groove formed in the first slab 110a and the groove formed in the second slab 110b.

The reinforcing bar 140 includes the groove formed in the first slab 110a while forming a continuous reinforcement portion 141 between the first slab 110a and the second slab 110b, and the second slab ( The grooves formed in 110b) are simultaneously reinforced.

The groove formed in the first slab 110a and the reinforcing bar 140 are placed in the groove formed in the second slab 110b, and then a finishing material (overlay concrete) to be described later is poured, which is separated from each other. It is possible to improve the structural integrity of the members separated from each other while ensuring the structural continuity between the members.

Referring to FIG. 2 , any one or more structures among a flat-panel structure, a hollow structure, and a rib-attached structure may be formed in the lower portion 111 of the PC slab 110 according to an embodiment of the present invention. If the lattice-shaped grooves 120 can be formed on the surface of the PC slab 110 , the lower portion of the PC slab 110 may have various structures.

Specifically, in the lower part 111 of the PC slab 110 according to the embodiment of the present invention, the existing PC slab structure or the PC slab structure performance of the present invention, such as a plate-type structure, a hollow structure, a rib-attached structure, etc. It can be a number of different types of structures that can be improved.

The lower portion 111 of the PC slab 110 may have any one or more structures of a flat structure, a hollow structure, and a rib-attached structure, and a structure other than the above-described structure may be applied.

1 and 4 , the PC slab structure having a lattice groove according to an embodiment of the present invention may further include a finishing material. The finishing material is poured to cover the groove 120 of the PC slab 110 after the reinforcing material is inserted into the groove 120 of the PC slab 110 .

The finishing material may be overfilled concrete 150 , and after reinforcing the reinforcing bar 140 in the groove 120 of the PC slab 110 , the overfilled concrete 150 may be poured.

3 and 4 , the groove formed in the first slab 110a and the second slab 110a are formed while a continuous reinforcement portion 141 is formed between the first slab 110a and the second slab 110b. After the reinforcing bar 140 is simultaneously reinforced in the groove formed in the slab 110b, the structural integrity between adjacent members can be ensured by pouring the overlaid concrete 150 .

The finishing material is preferably made of the overlaid concrete 150, but is not limited thereto, and the finishing material may be made of various finishing materials as long as it can be poured to cover the groove 120 of the PC slab 110. .

The PC slab structure having the lattice grooves according to the embodiment of the present invention described above can be constructed in the following way. The construction method of a PC slab structure having a grid-type groove according to an embodiment of the present invention includes a reinforcement step and a pouring step.

The PC slab 110 may be manufactured in a factory through a precast method, and the plurality of grooves 120 are formed while the plurality of grooves 120 are formed on the surface of the PC slab 110 . It may be formed in a grid shape.

More specifically, the groove 120 and the rib 130 of the PC slab 110 may form a checkerboard structure. In on-site construction, a plurality of the PC slabs 110 separated from each other may be used.

The reinforcement step is a step of inserting the reinforcing material into the groove 120 . The reinforcing material may be a reinforcing bar 140 , and the reinforcing bar 140 may be reinforced while the reinforcing bar 140 is inserted into the groove 120 formed on the surface of the PC slab 110 .

Here, the reinforcing bar 140 may not be reinforced in some of the plurality of grooves 120 formed in the PC slab 110 , and the reinforcing bars 140 may be reinforced only in some of the plurality of grooves 120 . can For example, the reinforcing bar 140 may be reinforced only in the groove 120 formed at the end of the PC slab 110 .

In addition, the reinforcing member made of the reinforcing bar 140 may be simultaneously inserted into the groove of one PC slab and the groove of the other PC slab. As described above, a plurality of the PC slabs 110 separated from each other may be used at the construction site.

In order to structurally integrate the plurality of PC slabs 110 separated from each other, in the reinforcement step, a continuous reinforcement portion 141 between the first slab 110a and the second slab 110b separated from each other. The reinforcing bar 140 may be simultaneously inserted into the groove formed in the first slab 110a and the groove formed in the second slab 110b while forming the slab.

The pouring step is a step of pouring a finishing material to cover the groove 120 of the PC slab 110 after the reinforcing material is inserted into the groove 120 of the PC slab 110 . According to an embodiment of the present invention, the reinforcing material may be the reinforcing bar 140 , and the finishing material may be the reinforcing concrete 150 .

After reinforcing the reinforcing bar 140 through the groove 120 , the plurality of PC slabs 110 that are separated from each other are structurally formed by pouring the overlaid concrete 150 to cover the groove 120 . can be unified.

The PC slab structure having the lattice grooves according to the embodiment of the present invention described above has the following effects.

The PC slab structure having a grid-type groove according to an embodiment of the present invention forms grid-type grooves in which reinforcing materials such as reinforcing bars can be reinforced on the surface of the PC slab manufactured by the precast method to secure continuity between members. There is an advantage in that it is easy to implement structural integration between the members.

In addition, the PC slab structure having a grid-type groove according to an embodiment of the present invention has the advantage of improving the construction quality by accurately observing the reinforcement spacing through the grid-type groove formed on the surface of the PC slab, and the PC slab There is an advantage in that the surface of the PC slab can be kept flat during construction as the reinforcing bar is not exposed at the top.

The PC slab structure having a lattice groove according to an embodiment of the present invention has the advantage of being able to immediately utilize the PC slab as a movement path of heavy equipment in the state of construction by keeping the surface of the PC slab flat during construction, By keeping the surface of the PC slab flat during construction, it has the advantage of preventing safety accidents such as tripping.

In addition, the PC slab structure having a grid-type groove according to an embodiment of the present invention can minimize the amount of overlaid concrete to the level of the covering thickness by forming grid-type grooves on the surface of the PC slab, and through this, the amount of concrete pouring It has the advantage of being able to secure the rigidity of the PC slab for supporting heavy equipment even under construction by increasing the production thickness of the PC slab while reducing

In addition, the PC slab structure having a lattice groove according to an embodiment of the present invention has the advantage of simplifying the subsequent process by increasing the production thickness of the PC slab while reducing the amount of overlaid concrete.

The lower part of the PC slab according to the embodiment of the present invention has various types of structural types that can improve the performance of the existing PC slab structure or the PC slab structure of the present invention, such as a flat plate structure, a hollow structure, a rib attached structure, etc. it can be The PC slab structure according to an embodiment of the present invention has the advantage that the conventional PC slab method can be applied to the lower part of the PC slab while forming a grid-like groove on the surface of the PC slab.

As described above, the PC slab structure having a lattice groove according to an embodiment of the present invention has excellent constructability, easy quality control, and effective prevention of safety accidents compared to the conventional construction method.

In addition, the present invention has the advantage that it is possible to support heavy equipment through the PC slab during construction, and the PC slab can be used as a movement path of the heavy equipment during construction. At the same time, the present invention can utilize the advantages of the present invention while maintaining the advantages of the conventional similar method because the conventional similar method can be applied interchangeably.

Although the present invention has been described with reference to one embodiment shown in the drawings, it will be understood that this is merely exemplary, and that those of ordinary skill in the art can make various modifications and variations therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

110...PC slab 111...The lower part of the PC slab
120...home 130...rib
140...Rebar 141...Continuous Reinforcement
150... Overlay Concrete

Claims (12)

In the slab structure manufactured by the precast method,
PC slab;
a groove formed on the surface of the PC slab and extending in a longitudinal direction or a width direction to insert a reinforcing material;
and a rib protruding to the surface of the PC slab due to the formation of the groove.
A plurality of the grooves are formed on the surface of the PC slab,
A plurality of the grooves are formed in a grid shape while the grooves and the ribs are formed in a checkerboard structure,
The upper surface of the rib is made of a flat surface, and the side surface of the rib is surface-treated to have a surface roughness,
The reinforcing material is made of reinforcing bars,
After the reinforcement is inserted into the groove of the PC slab,
A finishing material is poured so as to cover the grooves of the PC slab, and the finishing material is a PC slab structure having a grid-type groove, characterized in that the concrete is overlaid. delete delete delete delete According to claim 1,
The PC slab is provided in plurality,
The reinforcing material is a PC slab structure having a grid-type groove, characterized in that the reinforcing material is simultaneously inserted into the groove of one PC slab and the groove of the other PC slab. delete delete According to claim 1,
In the lower part of the PC slab,
A PC slab structure having a lattice groove, characterized in that at least one of a planar structure, a hollow structure, and a rib-attached structure is formed. a PC slab, a groove formed on the surface of the PC slab and extending in the longitudinal or width direction to insert a reinforcing material; and a rib protruding from the surface of the PC slab due to the formation of the groove;
A method of constructing a PC slab structure in which a plurality of grooves are formed on the surface of the PC slab and the plurality of grooves have a lattice shape,
a reinforcement step of inserting the reinforcing material into the groove;
After the reinforcing material is inserted into the groove of the PC slab, a pouring step of pouring a finishing material to cover the groove of the PC slab;
A plurality of the grooves are formed on the surface of the PC slab,
A plurality of the grooves are formed in a grid shape while the grooves and the ribs are formed in a checkerboard structure,
The upper surface of the rib is made of a flat surface, and the side surface of the rib is surface-treated to have a surface roughness,
The reinforcing material is made of reinforcing bars, and the finishing material is a construction method of a PC slab structure having a lattice-shaped groove, characterized in that the overlaid concrete. 11. The method of claim 10,
The PC slab is provided in plurality,
In the reinforcement step, the reinforcing material is simultaneously inserted into the groove of one PC slab and the groove of the other PC slab. delete

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